Product description
Product Name: High-Purity Precursors and Core Raw Materials (Chemicals and Powders)
Key Features and Specifications
| Material Category | Examples | Primary Function |
| Inorganic Salts | Lithium Carbonate (Li₂CO₃), Nickel Sulfate (NiSO₄), Cobalt Sulfate (CoSO₄) | Core Precursors for synthesizing battery cathode materials and catalysts. |
| Metal Powders/Foils | High-Purity Aluminum (Al), Titanium (Ti), Copper (Cu), Silicon (Si) Powders | Base Elements for alloying, electrocatalyst substrates, and anode materials. |
| Solvents | N-Methyl-2-pyrrolidone (NMP), Dimethyl Carbonate (DMC), Anhydrous Alcohols | High-Purity Media for slurry preparation, electrolyte formulation, and chemical synthesis. |
| Monolithic Organics | Epoxies, Polyimides, specialized monomers (e.g., TAIC) | Base Building Blocks for polymer synthesis, coatings, and composite materials. |
| Purity | Ultra-High Purity (Typically 99.9% to 99.999%), with low trace metal content | |
| Key Advantage | Foundation of Material Quality, directly impacting final product performance and reliability. |
Product Summary
Precursors & Raw Materials are the foundational, high-ppurity chemical compounds and elements from which all advanced materials are synthesized and manufactured. In scientific research and high-tech production, the quality and purity of these starting materials are the single most important factor determining the reliability, performance, and scalability of the final product, whether it is a battery electrode, a specialized polymer, or a catalyst.
We provide a comprehensive selection of precisely characterized raw materials, focusing on ultra-high purity grades required for sensitive applications where trace impurities can cause detrimental side effects (e.g., in solid-state synthesis or high-voltage battery operation).
Primary Applications
New Energy Research:
Cathode Synthesis: Supplying high-purity transition metal salts (Ni, Co, Mn) and Lithium salts as precursors for synthesizing complex layered and spinel cathode materials (e.g., NCA, NCM, LFP).
Anode Development: Providing Silicon (Si) powder and other elemental materials used for next-generation, high-capacity anode research.
Materials Chemistry & Functional Surfaces:
Nanomaterial Synthesis: Offering metal salts and high-purity chemical reagents essential for the controlled synthesis of nanoparticles, quantum dots, and metal oxides.
Catalyst Fabrication: Supplying noble metal salts and metal oxides used as precursors for the synthesis of highly active electrocatalysts (e.g., in fuel cells and water splitting).
Polymers & Biomaterials:
Custom Synthesis: Providing specialized monomers, initiators, and high-purity solvents required for the precise, controlled synthesis of research-grade polymers and specialty chemicals.
Importance of Purity
For advanced applications like batteries and microelectronics, even minute quantities of trace metal impurities (measured in parts per million or billion) can drastically reduce cycle life, increase self-discharge, or compromise safety.
Our selection of raw materials is rigorously tested to ensure that the certified purity level meets the stringent demands of high-performance R&D and pilot-scale production, guaranteeing that your final product achieves its theoretical performance potential.
